FI72206B - ANORDNING FOER OEVERFOERING AV EN PROJEKTIL - Google Patents

Description

1 72206

Device for moving a projectile

The invention relates to a device for transferring a projectile, in particular to a grenade launcher tube, the projectile being moved to the tube mouth and dropped into a tube comprising a body part fitted with at least one endless tube rear circumferentially extending from the rear of the tube to the mouth of the tube. or a conveyor 10 formed from the belt and adapted to move substantially parallel to the tube, wherein at least one projectile support and transfer device is attached to the chain or belt.

The transfer of the projectile into the grenade launcher tube has so far taken place by hand, with the projectile being lifted at the mouth of the tube 15, pushed into the tail section above the tube and dropped into the tube. This is a very useful method with small projectors, but in the case of large projectors the above method has proved to be bad. Especially with large projectors, the firing speed is essentially dependent on the loading speed. Shooting has thus become slow because the loading speed has been slowed by a heavy projectile that is difficult to handle and usually a relatively high orifice orifice. In some situations, it is even necessary to turn the barrel to lift the projectile into the mouth of the barrel. All of the above factors have a very significant effect on shooting efficiency.

The object of the invention is to provide a device by means of which the above-mentioned drawbacks can be eliminated. This is achieved by means of a device according to the invention, characterized in that the projectile support and transfer device is adapted to remain in the same position relative to the tube during the continuous rotation of the chain or belt in the same direction.

The advantage of the invention is its flexibility in use, whereby the rate of fire can be considerably increased compared to the previous one. The invention has made it possible to eliminate the awkward lifting of heavy ammunition 2 72206, which has occurred especially in connection with heavy projectiles. The transfer of ammunition can also be mechanized very easily. The tube also does not need to be tilted during charging. If necessary, the supply of ammunition can be arranged even from a longer distance. The invention is furthermore simple in implementation and does not require substantial changes in the structure of the projector itself.

The invention will now be explained in more detail by means of two preferred embodiments shown in the accompanying drawing, in which Figure 1 shows a first embodiment of the invention in principle, Figure 2 shows the device of Figure 1 seen from the side, Figure 3 shows the device of Figure 2 seen from above, Figure 4 shows apparatus 2 and 3, seen in the direction of the arrow IV, Figure 5 shows a second embodiment of a schematic perspective view of the invention, 20 Figure 6 shows the device of Figure 5 seen from the side, and Figure 7 shows the device of Figure 6 seen from above.

Figures 1-4 show a preferred embodiment of the invention. In the example of the figures, the grenade launcher tube is denoted by reference numeral 1. The figures do not include tube support arrangements or the like, which are fully known in the art and are not directly related to the invention.

In the example of Figures 1 to 4, the tube 1 has a body part 4 supported by a lower support 2 and an upper support 3. and 12. The chain or belt 11 35 is then adapted to pass through the drive wheel 5 and the deflection wheel.

II

3 72206 8 and the chain or belt 12, respectively, are arranged to run around the traction sheave 6 and the deflection sheave 9. The traction wheels are rotated by means of a handwheel or palm 7. The traction wheels 5 and 6 are arranged stepwise with respect to each other in the longitudinal direction of the tube, and the deflection wheels 8 and 9 are arranged in a corresponding manner stepped with respect to each other, whereby the distances between the wheels 5 and 8 and 6 and 9 are equal. The chains or belts 11 and 12 are arranged to move synchronously with respect to each other. The synchronized movement 10 can be achieved in several different ways, in the case of Figures 1-4. the movement is effected by means of a shaft 29 connecting the traction wheels 5 and 6.

Attached to the chains or belts 11 and 12 are one or more support and transfer devices 10 for transferring a projectile. The support and transfer devices 10 are attached to the chains or belts so that their position relative to the tube remains the same throughout the rotational movement of the chains or belts 11, 12. By this is meant that the support and transfer devices 10 do not pivot at the ends of the conveyor 20, but move horizontally downwards at the top of the conveyor and further move to the bottom of the conveyor "backwards" and rise horizontally upwards at the rear of the conveyor and move "front" towards the top of the conveyor, i.e. towards the mouth of the tube. Such movement is achieved by means of the stepped position of the chains or belts 11, 12 and the selection of the attachment points of the support and transfer devices 10. The arrangement is particularly clear from Figures 2 and 3, which show that the support and transfer devices 10 can be particularly advantageously attached to the chains or belts 11, 12 from opposite angles (Figure 3). The support and transfer devices 10 can in principle be made of any kind, in the embodiment of Figures 1-4 in question. the devices are made of rigid ammunition from behind to support structures. It is clear that the projectile 35 must also be supported vertically, this is realized in the embodiment of Figures 1-4 4 72206 by means of a mating surface 28. The mating surface 28 can, of course, be shaped according to the particular need.

The embodiment according to Figures 1 to 4 further comprises 5 storage tubes 13, 14 for ammunition.

The projectile is shown in Figures 1-4 by reference numeral 25. The storage tubes 13, 14 are arranged so that they can move from the projectile receiving position in front of the mouth of the tube 1 to the feed position and back. Em. the movement is provided in the embodiment of Figures 10 1-4 by means of a shaft 17 parallel to the pipe 1 and a manual drive mechanism 16. The storage tubes 13, 14 are then connected to the shaft 17 by means of support plates 20, 21. Naturally, an obstacle 15 is arranged in the body part 4, the purpose of which is to prevent the possible passage of the projectile 25 15 through the storage pipe 13, 14 in the supply position. In addition, it will be appreciated that each support and transfer device 10 may have a cam 18 or the like adapted to release a lever 19 or the like to allow the storage tubes to be turned. It is clear 20 that the above mechanism is only a fundamental example of how the storage tubes 13, 14 can be locked in their correct position and released at the right time, however, other arrangements are also possible. To hold the projectile 25 in the storage tube 13, 14 during their transfer 25, a counter plate 22 is provided in the device. In addition, the device according to Figures 1-4 comprises stops 23 (Figure 4) fitted to the counter plate 22 or body 4, to which the lever 19 is arranged to contact and stop the storage tubes. rotation. The lever 19 can be provided with a spring member 24 which holds the lever 19 in its second extreme position.

In the embodiment of Figures 1 to 4, the body part 4 is resiliently supported on the pipe 1. This is realized by means of a sliding upper support support 3 and a lower support support 35 with retarders 26. Em. the arrangement can dampen shocks to the body 4 and the conveyor when firing.

5 72206

In addition, the device may be provided with a suitable mechanism to prevent the body part from flowing downwards towards the rear of the tube. As a mechanism, for example, a ratchet mechanism 27 can be used, which can, of course, be disengaged if necessary.

The device according to Figures 1 to 4 operates as follows. The rechargeable projectile 25 is placed in the rear of the body part 4 in a space adapted for this purpose (Fig. 2). Next, the crank is rotated in the direction of arrow 7 (Figure 1) 10 to indicate the direction. In this case, the support and transfer devices 10 start to move in the direction of arrows M and M 'in the direction (Figure 2) and effect. Projectile moves in the direction of arrow C (Figure 1). towards the front end of the tube 1, i.e. the mouth opening. The support and transfer device 10 transfers the projectile parallel to the tube as an extension of the conveyor to the storage tube 13 in the projectile receiving position (Figures 1 and 2). As the crank 7 is further rotated, the cam 18 in the support and transfer device 10 releases the lever 19, whereby by means of the manual drive mechanism 16 the storage pipe 13 and the projectile 25 therein 20 can be turned as an extension of the pipe 1 to the feed position. The direction of rotation of the manual drive mechanism 16 is illustrated in Fig. 1 by reference L and the movement of the storage tube 13 in Figs. 1 and 4, respectively, by arrow O. When the storage tube 13 is in the feed position in front of the tube 1 orifice, the projectile 25 can fall into the tube. This direction of fall is denoted by reference P in Fig. 1. It can also be seen from the figures that while the storage tube 13 moves to the supply position, the storage tube 14 moves to the receiving position and locks in this position. Thus, the ammunition 25 can be moved by the conveyor 30 several times simultaneously, whereby the firing is considerably faster compared to the previous loading practice.

Figures 5 to 7 show another preferred embodiment of the invention. The embodiment of Figures 5 to 7 corresponds to the embodiment of Figures 1 to 4 with regard to the operating principle of the conveyor formed by the body part 4 and the chains or belts 35 11, 12 fitted to it. In Figures 5-7, the same reference numerals as in Figures 1-4 have been used for the corresponding parts. The embodiment of Figures 5 to 7 will be explained below only in so far as it differs from the embodiment of Figures 1 to 4.

The embodiment of Figures 5-7 differs from the embodiment of Figures 1-4 in that the projectile support and transfer device 10 is made as a pivoting structure. In this case, the conveyor and transfer device 10 has two pairs of pivoting parts 10a, 10b which are adapted to engage the body of the projectile 25. Due to the difference in the support and transfer devices, in the embodiment of Figures 5-7 no storage tube mechanism is required at all, but the conveyor is arranged with respect to the tube 1 so that the conveyor moves the projectile 25 from the vicinity of the tube 15 directly in front of the tube mouth. In this case, the projectile is fed into the tube at the beginning of the return movement of the conveyor (direction M ', Fig. 6), the pivoting parts 10a, 10b of the support and transfer device 10 being adapted to contact the tube and rotate due to relative movement between the support and transfer device 10 and 20. detach from the projectile, causing the projectile to fall into the barrel. The support and transfer device, in turn, runs empty in the direction of the pipe towards the rear end of the pipe. The structure and operation of the device are particularly clear from Figure 25 6.

Briefly, the device of Figures 5-7 operates as follows. The rechargeable projectile 25 is placed at the rear of the body part 4 on a support and transfer device 10. Next, the crank 7 is rotated in the arrow direction indicated by 30 (Figure 5). In this case, the support and transfer device 10 and its dependent on the projectile 25 passes in the direction of the arrow M side. As the crank 7 is further rotated, the support and transfer device 10 bypasses the pair of swivel wheels 8, 9, descends horizontally down to a position where the line of symmetry-35 of the projectile hits the line of symmetry of the tube 1 (Fig. 6) and begins 11.

7 72206 return (direction M ') towards the rear end of the pipe. In this case, the tail portion of the projectile protrudes from the mouth of the tube and the pivoting parts of the support and transfer device 10 contact the edges of the mouth of the tube and pivot due to the above-mentioned relative movement 5, whereby the projectile detaches and falls into the tube. The support and transfer device 10 continues to run empty in the direction of the rear of the M1 tube and rises higher than at the drive wheels 5.6 as previously described, whereby a new projectile can be placed on the support and transfer device.

The embodiments presented above are not intended to limit the invention in any way, but the invention can be modified in many different ways within the scope of the claims. Thus, the conveyor does not necessarily have to be formed of two chains or belts, but it is possible to use a solution in which the other chain or belt is replaced by a correspondingly arranged guide groove or the like. The number of storage pipes or support and transfer devices is not limited in any way. Also, the body part of the device does not necessarily need to be supported in the pipe, but other types of support arrangements are also possible. The details of the support and transfer devices do not have to be exactly as shown in the figures, but it is also possible to use other types of structures. The devices shown in the figures are manual, but the mi-25 does not, of course, preclude the use of other power sources to move the conveyor and storage pipes, etc.

Claims (4)

8 72206 A device for transferring a projectile (25), in particular to a grenade launcher tube (1), the projectile being transferred to the mouth of a tube 5 and dropped into a tube, the device comprising a body part (4) fitted with at least one of the traction and swivel wheels (5, 6, 8, 9) a conveyor formed by an endless chain or belt (11, 12) extending from the rear of the tube (1) in the vicinity of the mouth of the tube, adapted to move substantially parallel to the tube (1), the chain or belt (11) , 12. at least one projectile support and transfer device for the projectile (25) is attached, characterized in that the projectile support and transfer device (10) is arranged to remain in the same position relative to the tube (1) 15 in the same direction continuously of the chain or belt (11, 12) during the rotation. Device according to claim 1, wherein the conveyor is formed by two endless chains or belts (11, 12) arranged in parallel and stepped in the direction of the tube (1) and arranged to run in a synchronously rotated pair of traction sheaves (5, 6), characterized in that , that the projectile support and transfer device (10) is fastened at opposite angles to the chains or straps (11, 12). Device according to Claim 1 or 2, characterized in that the support and transfer device (10) of the projectile (25) is made as a rigid structure supporting the projectile at least from behind. Device according to claims 1 and 2, characterized in that the projectile support and transfer device (10) of the projectile (25) is provided with rotatable parts (10a, 10b) engaging the projectile, the conveyor being adapted to transfer the projectile (25) directly to the tube (1). ) in front of the mouth and during its return movement (M1) into the projectile 35, the pivoting parts (10a, 10b) of the support and transfer device being adapted to turn and detach from the projectile (25) by the relative movement between the support and transfer device (10) and the tube (1). ). Il 9 72206